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The Ecosystems Research Center (ERC) was established at Cornell U ni versity in October 1980 by the Environmental Protection Agency (EPA) with the goals of: 1. Identifying fundamental principles and concepts of ecosystems sci ence and the determination of their importance in understanding and pre dicting the responses of ecosystems to stress, the description of the basic mechanisms that operate within ecosystems, and an examination of the stability of ecosystem structure and function in the face of stress. 2. Testing the applicability of those theoretical concepts to problems of concern to the EPA through a consideration of retrospective and other case studies. In line with these goals, the Hudson River ecosystem provided the basis for the first major retrospective study undertaken by the ERC. The goal of the project was to develop recommendations concerning how ecosystem monitoring can and should be carried out in support of EPA's regulatory responsibilities. Our hope was and is that the experience gained from this study will be broadly applicable to a range of manage ment problems involving estuarine ecosystems, and will lead to more effective regulation.
The Hudson River Estuary, first published in 2006, is a scientific biography with relevance to similar natural systems.
Winner of the 2012 Award for Excellence presented by the Greater Hudson Heritage Network The diverse contributions to Environmental History of the Hudson River examine how the natural and physical attributes of the river have influenced human settlement and uses, and how human occupation has, in turn, affected the ecology and environmental health of the river. The Hudson River Valley may be America's premier river environmental laboratory, and by bringing historians and social scientists together with biologists and other physical scientists, this book hopes to foster new ways of looking at and talking about this historically, commercially, and aesthetically important ecosystem. Native people's influences on the ecological integrity of aquatic and shoreline communities were generally local and minor, and for the first 12,000 years or so of human use, the Hudson River was valued mainly as a source of water, food, and transportation. Since the arrival of European colonists, however, commerce has been the engine that has driven development and use of the river, from the harvesting of beaver pelts and timber to the siting of manufacturing industries and power plants, and all of these uses have had pervasive effects on the river's aquatic and terrestrial ecosystems. In the meantime, aesthetic movements such as the Hudson River School of painting have sought to recover and preserve the earlier pastoral landscape, anticipating the more recent efforts by environmentalists that have led to dramatic improvements in water quality, shoreline habitats, and fish populations. Despite the pervasive forces of commerce, the Hudson River has retained its world-class scenic qualities. The Upper Hudson remains today a free-flowing, tumbling mountain stream, and the Lower Hudson a fjord penetrated and dominated by the Hudson Highlands. The Hudson's unique history continues to affect current uses and will surely influence the future in remarkable ways.
The U.S. Clean Water Act calls for the minimization of "adverse environmental impact" at cooling water intake structures. To facilitate an exchange of information among all stakeholders in the issue, the Electric Power Research Institute organised a national symposium in 2001 to discuss the meaning of adverse environmental impact and methods for its assessment. Technical experts in federal and state resource agencies, academia, industry and non-governmental organizations attended the symposium. This is a collection of peer-reviewed papers, intended both to inform and to encourage the development of rules regarding the minimization of adverse environmental impact at cooling water intake structures.
Report provides information on distribution, abundance, and health of birds, mammals, reptiles and amphibians, fishes, invertebrates, plants, terrestrial ecosystems, aquatic ecosystems, coastal and marine ecosystems, riparian ecosystems, the Great Plains, Interior West, Alaska, and Hawaii. It also discusses special issues: global climate change, human influences, non-native species, and habitat assessments.
Biological invasion of native plant communities is a high-priority problem in the field of environmental management. Resource managers, biologists, and all those involved in plant communities must consider ecological interactions when assessing both the effects of plant invasion and the long-term effects of management. Sections of the book cover human perceptions of invading plants, assessment of ecological interactions, direct management, and regulation and advocacy. It also includes an appendix with descriptive data for many of the worst weeds.
Onondaga Lake in Syracuse, New York is a model for the analysis and management of a polluted urban lake. Sometimes referred to as "the most polluted lake in the United States", Onondaga Lake is one of only two lakes for which a federal advisory body has been set up to guide environmental remediation. The recipient of significant municipal effluent and industrial waste for more than a century, Onondaga Lake has been the focus of intensive limnological investigation and extensive remediation efforts. This book is a comprehensive presentation of the scientific knowledge about Onondaga Lake, based on research coordinated by the Upstate Freshwater Institute. Onondaga Lake: Limnology and Environmental Management of a Polluted Urban Lake is the most complete case study of a lake, and will be of interest to water quality scientists, engineers and managers, as well as environmental engineers, modelers, and policymakers.